ABOUT US
Developed in Australia by chemical engineer John Winter, Seata’s patented technology produces low emissions energy and carbon rich biochar. With one simple process, Seata’s technology simultaneously offers solutions to many of the problems our planet presently faces.
Process Summary
Seata’s technology combines thermal and chemical looping principles to produce optimal pyrolysis and gasification outcomes. Through the use of a recirculating solid-state heat media and oxygen carrier, the process results in a yield of high quality biochar concurrent with clean undiluted syngas.
Positive environmental impact
Seata’s technology and business philosophy has been developed with an objective of allowing our business to align with the focus of the global community and economy, to assist in achieving the decarbonisation of our planet in a fashion which upholds the international ESG ethos through the implementation of those values within our business.
Through the creation of clean syngas, Seata’s technology offers a truly renewable energy solution that is also capable of carbon capture in the form of biochar.
The plant operates on a carbon negative basis. There are no harmful emissions, tars or resins produced by the process.
Biomass can be blended with other carbonaceous waste and used as a feedstock, reducing landfill and assisting with higher order resource recycling and recovery.
Comparative advantage and benefits
As a truly scalable process, Seata’s technology is complementary to existing infrastructure networks and other renewable energy technologies that are assisting with the futureproofing of vital energy security needs.
It also carries the added advantage of not being single market reliant, instead being consistent with circular economy outcomes and affords the real opportunity for social licensing and business success to co-exist.
Seata’s technology can be integrated into many critical industry sectors and supply chains on a global scale.
These include:
Stabilising renewable electricity supply (on demand)
Emerging carbon industries
Regenerative Agriculture
Metallurgical reductants
Plastic recycling (including bio-plastic production)
Transport and aviation fuels including hydrogen and SAF
Medical
Biosolids
Mining
Construction (including cement manufacture)
Waste, rehabilitation and contamination recovery
NET Zero transition
